Z-scan study of nonlinear absorption in gold doped borosilicate glass: Effect of Dy3

Nonlinearity is one of the most important optical properties widely used in opto-electronic devices. In this work, the optical nonlinearity of a series of Bismuth Borosilicate glasses is compared. The glasses prepared through conventional melt-quench technique comprises of Dy2O3, gold nanoparticles...

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Bibliographic Details
Published in:Journal of non-crystalline solids 2019-10, Vol.521, p.119481, Article 119481
Main Authors: Singla, Shivani, Pandey, Om Prakash, Sharma, Gopi
Format: Article
Language:English
Subjects:
Gold nanoparticles
Nonlinear optics
Rare earths containing glass
Sensing devices
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Summary:Nonlinearity is one of the most important optical properties widely used in opto-electronic devices. In this work, the optical nonlinearity of a series of Bismuth Borosilicate glasses is compared. The glasses prepared through conventional melt-quench technique comprises of Dy2O3, gold nanoparticles (GNPs) and both Dy2O3 and GNPs. XRD is used to confirm the amorphous nature of the glass whereas FESEM is carried out to observe variation in morphology of GNPs with the addition of Dy2O3. Effect of Dy2O3 on particle size is recorded using HRTEM. DTA is carried out to observe the variation in thermal behaviour of the material. The highest value of nonlinear absorption coefficient (4.35 × 10−12 cmW−1) and third order nonlinear optical susceptibility of 8.68 × 10−9 esu are observed from Z-scan for the glass containing both Dy2O3 and GNPs. The results conclude that the addition of Dy2O3 enhances the nonlinearity of glass containing gold and thus has promising applications in optical devices. •Coagulation of gold nanoparticles gets reduced in presence of Dy.•Enhancement in non-linear absorption takes place with the co-doping of Dy and Au.•Prepared glasses have potential applications for opto-electronic devices.
ISSN:0022-3093
1873-4812
DOI:10.1016/j.jnoncrysol.2019.119481